Litcius/Paper detail

An Efficient Data Protection Scheme Based on Hierarchical ID-Based Encryption for MQTT

Chun‐I Fan, Cheng-Han Shie, Yi‐Fan Tseng, Hui‐Chun Huang

2022ACM Transactions on Sensor Networks18 citationsDOI

Abstract

As Internet of Things (IoT) thrives over the whole world, more and more IoT devices and IoT-based protocols have been designed and proposed in order to meet people’s needs. Among those protocols, message queueing telemetry transport (MQTT) is one of the most emerging and promising protocols, which provides many-to-many message transmissions based on the “publish/subscribe” mechanism. It has been widely used in industries such as the energy industry, chemical engineering, self-driving, and so on. While transporting important messages, MQTT specification recommends the use of TLS protocol. However, the computation cost of TLS is too heavy. Since topics in a broker are stored with a hierarchical structure, in this manuscript, we propose a novel data protection protocol for MQTT from hierarchical ID-based encryption. Our protocol adopts the intrinsic hierarchical structures of MQTT, and achieves constant-size keys, i.e., independent of the depth in hierarchical structures. Besides, the formal security model for the proposed protocol have been defined in the manuscript. The proposed protocol have been formally proven chosen-plaintext secure under the ℓ-wBDHI assumption.

Topics & Concepts

MQTTComputer scienceMessage queueComputer networkEncryptionProtocol (science)CiphertextPlaintextDistributed computingRekeyingComputer securityInternet of ThingsKey managementAlternative medicinePathologyMedicineCryptography and Data SecurityBlockchain Technology Applications and SecurityCaching and Content Delivery